Akademik Veri Yönetim Sistemi
BIOORGANIC CHEMISTRY, cilt.107, 2021 (SCI-Expanded)
With the fading of 'one drug-one target' approach, Multi-Target-Directed Ligands (MTDL) has become a central idea in modern Medicinal Chemistry. The present study aimed to design, develop and characterize a novel series of 4-(Diethylamino)-salicylaldehyde based thiosemicarbazones (3a-p) and evaluates their biological activity against cholinesterase, carbonic anhydrases and alpha-glycosidase enzymes. The hCA I isoform was inhibited by these novel 4-(diethylamino)-salicylaldehyde-based thiosemicarbazones (3a-p) in low nanomolar levels, the Ki of which differed between 407.73 +/- 43.71 and 1104.11 +/- 80.66 nM. Against the physiologically dominant isoform hCA II, the novel compounds demonstrated K(i)s varying from 323.04 +/- 56.88 to 991.62 +/- 77.26 nM. Also, these novel 4-(diethylamino)-salicylaldehyde based thiosemicarbazones (3a-p) effectively inhibited AChE, with Ki values in the range of 121.74 +/- 23.52 to 548.63 +/- 73.74 nM. For BChE, Ki values were obtained with in the range of 132.85 +/- 12.53 to 618.53 +/- 74.23 nM. For alpha-glycosidase, the most effective Ki values of 3b, 3k, and 3g were with Ki values of 77.85 +/- 10.64, 96.15 +/- 9.64, and 124.95 +/- 11.44 nM, respectively. We have identified inhibition mechanism of 3b, 3g, 3k, and 3n on mglycosidase AChE, hCA I, hCA II, and BChE enzyme activities. Hydrazine-1-carbothioamide and hydroxybenzylidene moieties of compounds play an important role in the inhibition of AChE, hCA I, and hCA II enzymes. Hydroxybenzylidene moieties are critical for inhibition of both BChE and alpha-glycosidase enzymes. The findings of in vitro and in silico evaluations indicate 4-(diethylamino)-salicylaldehyde-based thiosemicarbazone scaffold to be a promising hit for drug development for multifactorial diseases like Alzheimer's disease.